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Embedded XINU and WRT54GL

Embedded XINU and WRT54GL . Topics. Demo of number game and avionics FSM Logic and shift operators Optimizing operations (mul, div VS shiftL, shiftR) WRT54GL architecture and internals Embedded XINU. Shift Operators. << left shift >> right shift Usage: unsigned int x = 70707;

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Embedded XINU and WRT54GL

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  1. Embedded XINU and WRT54GL

  2. Topics • Demo of number game and avionics FSM • Logic and shift operators • Optimizing operations (mul, div VS shiftL, shiftR) • WRT54GL architecture and internals • Embedded XINU

  3. Shift Operators • << left shift • >> right shift Usage: unsigned int x = 70707; //x = 00000000 00000001 00010100 00110011 unsigned int y, z; y = x << 2; // y = 00000000 00000100 01010000 11001100 z = x >> 2; //z = 00000000 00000000 01000101 00001100

  4. Logic Operators • Bitwise & (AND) • Bitwise inclusive | (OR) • Bitwise exclusive ^ (XOR) • Bitwise negation ~ Usage: unsigned exp1 = 1; unsigned exp2 = 4; printf (“ %d\n”, exp1 | exp2); printf (“ %d\n”, exp1 & exp2); printf (“ %d\n”, exp1 ^ exp2); printf (“ %d\n”, ~exp1);

  5. Relevance of shift and logic operators • Bitwise operations are necessary for much low-level programming, such as writing device drivers, low-level graphics, communications protocol packet assembly and decoding. • Device drivers use these operators to test the presence or absence of a bit in a serial port or a device input. (checking for on or off)

  6. Data-driven vs function-driven • Solve the number game using bitwise operators and functions. • I will give you a hint in the demo. • You can generate the numbers to be displayed at run-time. • Which one is better: previously computed and stored? Or Computed at run-time? Sometimes you may not have a choice.

  7. WRT54GL • History of WRT54G Open source firmware • Common features • Processor architecture (BCM5352) • WRT54GL Block diagram

  8. History • Introduced in 2002 • In 2003 Andrew Miklas posted to Linux Kernel Mailing List about Linksys using GPL code in its firmware • Linksys executives gave into the pressure from the community, Linksys released the code to the community under GPL.

  9. Common Features • Power: 12VDC 1.0amp • This power requirement is standard for embedded devices and wireless access points • This makes them compatible with Power over Ethernet (PoE) • This especially significant in mobile environment. • The Reset button: to reset the configuration

  10. Common Features (Contd.) • LED lights to indicate various conditions • Power : indicates presence of power • DMZ: use differs; ex: can show boot progress • WLAN LED • Ethernet • Internet • You can manipulate the LED thru’ your code by changing contents of system files.

  11. Linksys WRT54GL (contd.) • Linux kernel 2.4 • Based on Broadcom BCM535E SoC (System on Chip) • All-in-one Internet-sharing router, • 4-port switch • 54Mbps wireless-G (802.11g) access point • Shares a single internet connection with Ethernet wired and wireless-G –B devices • Push button setup • High security: TKIP and AES encryption providing a powerful firewall

  12. Processor Architecture • Processor: Broadcom MIPS (Microprocessor without Interlocked Pipeline Stages) processor, common to embedded devices and game consoles. • RISC (reduced instruction set computer) • MIPS is used Sony playstation for example. • We will develop programs in Linux OS: you will use Timberlake for off-campus; you can also a special server we have for the course nexos-dlink.cse.buffalo.edu • We will cross compile and load the firmware into WRT54GL (“port”)

  13. BCM5352 • Next generation SoC (System on a Chip) • SoC: combines CPU + Wireless MAC + Ethernet MAC onto one chip • Flash memory • SDRAM • Wireless access (802.11) • Ethernet switch

  14. WRT54GL Block diagram • See attached • Also follow this model: CPU Input Storage Output

  15. Processor Architecture • WRT54Gl uses Broadcom MIPS (Microprocessor without Interlocked Pipelines Stages) processor, common to embedded devices and game consoles. • Model: BCM5352 • Based on Reduced Instruction Set Architecture (RISC) • The BCM5532 family of processors is a next generation SoC architecture that combines the CPU, Wireless MAC (media access controller), Ethernet MAC onto one chip

  16. Storage • On board storage is indeed a limitation when using WRT54GL in situation other than for which it is meant for. • WRT54GL has a flash memory (4 MB), a form of non-volatile storage commonly used in small devices, such as digital camera. • It also use SDRAM (Synchronous Dynamic Random Access Memory) soldered directly into the printed board. DIMM (Dual In-line Memory Module)

  17. Wireless and Ethernet networking • WRT54GL has a powerful networking architecture • It provides 5 port Ethernet switch that is broken down into two virtual LANs VLAN0 and VLAN1 (default) • Wireless interface is bridged by default to the Ethernet switch. • WiFi component is BCM2050, a 802.11b/g radio chipset. • It uses a diversity chip to balance signals between two built-in antenna. • WiFi radio connects to the CPU Wireless MAC on eth1 which is bridged to VLAN0 via br0 interface. • Ethernet switch controls EthernetLAN and Internet lights, whereas Power, DMZ, WLAN are controlled by GPIO port on the CPU • WAN port: plug in cable modem into this port, • it will pull a DHCP (Dynamic Host Configuration Protocol) address from your ISP (Internet Service Provider). • Since it belongs to VLAN1 it is separate from VLAN0 and the two are linked by WRT54Gl’s routing capabilities. • Firewall prevents traffic from flowing from WAN to LAN network, traffic initiated by LAN to exit via WAN.

  18. What does WRT54GL do? • Creates a network between the wireless interface and the LAN ports known as br0. • Router address is 192.168.1.1 by default. • WLAN port (port 4). • Typically you will plug your cable modem into this port; this will pull the DHCP address from your ISP. • WAN and LAN are separate network linked by WRT54GL

  19. The Basic Hardware modifications SIGCSE 2009 NSF SHOWCASE

  20. The NSF-Supported Facility at UB SIGCSE 2009 NSF SHOWCASE

  21. Embedded XINU • http://xinu.mscs.mu.edu/Main_Page • XINU ("XINU Is Not Unix", a recursive acronym) is a Unix-like operating system originally developed by Douglas Comer for instructional purposes at Purdue University in the 1980s. • Embedded XINU is a reimplementation of the original XINU operating system on the MIPS processor which is able to run on inexpensive wireless routers and is suitable for courses and research in the areas of Operating Systems, Hardware Systems, Embedded Systems, and Compilers.

  22. Embedded XINU • http://xinu.mscs.mu.edu/Memory • ls xinu_mips-1.0 AUTHORS README include loader system tty LICENSE compile lib shell test uart • See attached XINU directory structure and class diagram

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